English

Consensus-Free Spreadsheet Integration

Databases 2025-09-16 v2 Software Engineering

Abstract

We describe a method for merging multiple spreadsheets into one sheet, and/or exchanging data among the sheets, by expressing each sheet's formulae as an algebraic (equational) theory and each sheet's values as a model of its theory, expressing the overlap between the sheets as theory and model morphisms, and then performing colimit, lifting, and Kan-extension constructions from category theory to compute a canonically universal integrated theory and model, which can then be expressed as a spreadsheet. Our motivation is to find methods of merging engineering models that do not require consensus (agreement) among the authors of the models being merged, a condition fulfilled by our method because theory and model morphisms are semantics-preserving. We describe a case study of this methodology on a real-world oil and gas calculation at a major energy company, describing the theories and models that arise when integrating two different casing pressure test (MASP) calculation spreadsheets constructed by two non-interacting engineers. We also describe the automated theorem proving burden associated with both verifying the semantics preservation of the overlap mappings as well as verifying the conservativity/consistency of the resulting integrated sheet. We conclude with thoughts on how to apply the methodology to scale engineering efforts across the enterprise.

Keywords

Cite

@article{arxiv.2209.14457,
  title  = {Consensus-Free Spreadsheet Integration},
  author = {Brandon Baylor and Eric Daimler and James Hansen and Esteban Montero and Ryan Wisnesky},
  journal= {arXiv preprint arXiv:2209.14457},
  year   = {2025}
}
R2 v1 2026-06-28T02:19:58.968Z